Welcome to the new NASA website. We’re working to continuously improve your web experience. If you don't find what you are looking for, give feedback.

Suggested Searches

2 min read

Kepler’s Second Light: How K2 Will Work

Kepler's Second Light: How K2 Will Work
Engineers have developed an innovative way to stabilize and control the spacecraft. This technique of using the sun as the "third wheel" could have Kepler on the hunt for planets again, soon.

The conception illustration depicts how solar pressure can be used to balance NASA’s Kepler spacecraft, keeping the telescope stable enough to continue monitoring distant stars in search of transiting planets.

In May, Kepler lost the second of four gyroscope-like reaction wheels, ending new data collection for the original mission. A new mission concept, dubbed K2, would continue Kepler’s search for other worlds, and introduce new opportunities to observe star clusters, young and old stars, active galaxies and supernovae.

Using the sun and the two remaining reaction wheels, engineers have devised an innovative technique to stabilize and control the spacecraft in all three directions of motion. This technique of using the sun as the ‘third wheel’ to control pointing is currently being tested on the spacecraft.

To achieve the necessary stability, the orientation of the spacecraft must be nearly parallel to its orbital path around the sun, which is slightly offset from the ecliptic, the orbital plane of Earth. The ecliptic plane defines the band of sky in which lie the constellations of the zodiac.

K2 would study a specific portion of the sky for up to 83 days, until it is necessary to rotate the spacecraft to prevent sunlight from entering the telescope. Each orbit or year would consist of approximately 4.5 unique viewing periods or campaigns.

The K2 mission concept has been presented to NASA Headquarters. A decision to proceed to the 2014 Senior Review – a biannual assessment of operating missions – and propose for budget to fly K2 is expected by the end of 2013.

Image credit: NASA Ames/W Stenzel